Difference between revisions of "Elements:Solids"
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Description: "Dry ice, formed when CO2 is cooled." | Description: "Dry ice, formed when CO2 is cooled." | ||
− | + | DRIC forms when CO2 is cooled to a temperature of exactly -80C. | |
+ | Takes time to turn back into CO2 when DRIC is heated to above -80C, even at max temperature. | ||
=== [[File:SPNG.png|SPNG]] [[Element:SPNG|Sponge]] === | === [[File:SPNG.png|SPNG]] [[Element:SPNG|Sponge]] === |
Revision as of 16:55, 19 May 2014
Language: | English • 한국어 • polski • русский • 中文 |
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Solids are particles that cannot be moved unless transformed to another state, such as gases or liquids.
Contents
Goo
Description: "Deforms and disappears under pressure."
Goo deforms and dissipates under pressure. While this happens, the life values goes down until it hits zero and the goo disappears. Neutrons can also pass through, slightly distorting the goo.
Ice
Description: "Crushes under pressure. Cools down air."
Cold (spawns at -28C) frozen water. Shatters into snow under a pressure of 0.8. It also generates a small amount of negative pressure around it. Melts at 0 C.
It's ctype determines what it will melt into. For example, ICE with a ctype of FIRE will turn into fire when it melts. This can be used to make various effects, from nuclear explosions to weird lava-ish molten snow.
Wood
Description: "Wood, flammable"
Wood. Flammable. Passes neutrons. Burns medium speed. Can not be pressurized into coal.
Plant
Description: "Plant, drinks water and grows."
Plant. Flammable, drinks water (only normal WATR, not distilled or salt water) and grows. Neutrons change it into wood. Saltwater eats into it. If exposed to smoke, plant produces oxygen, simulating the process of photosynthesis - the carbon dioxide presumably contained in the smoke is converted into oxygen.
STKM eats it by touching it and gains health, up to it's max of 100
Breakable Metal
Description: "Breakable Metal. Common conductive building material, can melt and break under pressure."
BMTL breaks into BRMT under a pressure of 2.5. It also melts at 1000C and is conductive. This element is commonly used as a construction material for destructible buildings, similar in purpose to Brick. THRM produces molten THRM when it burns, which melts into BMTL. If Broken Metal (BRMT) is melted and cooled it will form breakable metal (BRMT) again.
Half of all photons that touch it will go through, the other half will reflect off.
Molten BMTL is also created in the last step of fusion: Oxygen at max temperature, max pressure, and high Newtonian Gravity.
Wax
Description: "Wax. Melts at moderately high temperatures."
Melts at 45C, bounces neutrons (NEUT), melts with photons, flammable.
Glass
Description: "Glass. Meltable. Shatters under pressure, and refracts photons."
Glass, shatters when pressure changes too fast, lets through photons, and melts at exactly 1700C. Photons can be passed through glass to separate the different wavelengths of light, works perfectly when you make a prism. passing through will give off some of a similar color at an angle to simulate Cherenkov radiation. Converts to upon contact. is immune to .
Nitrogen Ice
Description: "Nitrogen Ice. Very cold, will melt into LN2 when heated only slightly."
Nitrogen ice, very cold. Spawns at -238.15C; melts at -210.05C into LN2.
Coal
Description: "Coal, burns very slowly. Gets red when hot."
Coal, slowly burns. When coal is heated, it turns orange-white, and then cools by itself to a light grey after the heat is removed (simulating charcoal). This aspect is shared by BCOL as well. Note that this effect is not visible in blob, fancy, nothing, and heat gradient displays.
Turns into wood when neutrons hit it. It is also one of the few solids to absorb photons.
Shatters into broken coal (BCOL) at a pressure of 4.3 after a slight delay.
Brick
Description: "Brick, breakable building material."
This element is a solid form of stone, is not conductive and it melts at 950C. It breaks at a pressure of 8.8 to form .
PSTE, if heated hot enough (at around 460C), will turn into . This simulates clay baking into ceramic at high temperatures.
If you change the TMP of to 1, the will glow a faint blue, PPIP generates this kind of .
Fuse
Description: "Burns slowly. Ignites at somewhat high temperatures or with electricity."
Fuse, ignites with high temperatures (e.g. plasma) and electricity, but not fire. Slow burning. Burns at an average of 4000-6000 degrees. Breaks into FSEP under a pressure of 2.7.
Iron
Description: "Rusts with salt, can be used for electrolysis of WATR."
Melts at 1412C. Rusts with salt (SALT), salt water (SLTW), oxygen (O2), water (WATR) and liquid oxygen (LO2). Note that DSTW will not rust iron. If water is present AND the iron is sparked, the water will split into two elements, HYGN and OXYG. To prevent rust when electrolyzing, place a pixel of next to the iron. This will slow the rusting process down by a lot.
If mixed with or and cooled, the will turn into . The optimal temperature for making is at 1435C. This process will consume the or .
Dry Ice
Description: "Dry ice, formed when CO2 is cooled."
DRIC forms when CO2 is cooled to a temperature of exactly -80C. Takes time to turn back into CO2 when DRIC is heated to above -80C, even at max temperature.
Sponge
Description: "Sponge, absorbs water. Is not a moving solid."
A sponge, absorbs water. Turns darker when water is absorbed. Burns when exposed to fire or at temperatures above 2450. Water can be released under high pressure or when SPNG is burnt with fire.
When sponge absorbs salt water, it may drop SALT. When absorbing CBNW, it releases CO2. When absorbing PSTE, the PSTE gets turned into CLST.
Rime
Description: "Solid, created when steam cools rapidly and goes through sublimation."
Created when WTRV is cooled so rapidly, that it doesn't have the time to visit liquid form (deposition). Turns into FOG when sparked. Basically solid steam. Changes back to WATR at exactly 0 degrees celsius.
Vine
Description: "Vine, can grow along WOOD.
When vine is spawned, it grows in a semi-random pattern somewhat resembling grass.
Shield
Description: "Shield. Spark it to grow."
When SHLD is sparked it produces a layer of SHD2 and another layer of SHLD on the outside, Process repeats with SHD3 and SHD4. When SHD3 or SHD4 is not surrounded by SHLD or SHD2 (such as when the outside SHLD layer is destroyed) it can grow new layers of SHLD to regenerate itself.
Meant to be used as protection for circuits and often used in bunkers, SHLD does not conduct heat.
Filter
Description: "Filter for photons, changes the color."
Filter for photons, it changes the colors of the photons.
When is cooled, it changes color to a higher level of the electromagnetic spectrum, and vice-versa (in simpler terms, it turns blue when cooled, and turns red when heated).
Leaving its tmp at 0 (the default) will change any photons that pass through to its color.
Setting its tmp to 1 will filter photons, only letting photons with similar colors pass through.
Setting its tmp to 2 will add that color to the photon's color, not overwriting it.
Setting its tmp to 3 will subtract color from the photons, without just overwriting their color.
Setting its tmp to 4 will make the photon colour closer to red.
Setting its tmp to 5 will make the photon colour closer to blue.
Setting its tmp to 6 will have no effect, hence the display of 'no effect'.
Setting its tmp to 7 will subtract color from the photons, but allow photons of similar colors to pass through with no change.
Setting its tmp to 8 will cause the to absorb all photons that are not the same color as itself. It will subtract color from any photons that match its color.
Setting its tmp to 9 will enable "old QRTZ scattering' mode. This gives the photons that pass through a random -/+ X/Y velocity and changes their color randomly (usually to a hue of purple or yellow.)
If you set 's tmp to anything but the numbers 0-9, it goes into 'unknown effect' mode and does nothing.
can also set the color of white BRAY that passes through it.
Tutorial: minecraft-physics' tutorial/explanation
Predict the color changes: From -273.15 to 200 degrees it stays blue. Between 200 and 840 it changes every 40 degrees in such a fashion: 240 it changes, 280 it changes, etc. From 840 to 9725.85 degrees it stays red. Testing courtesy of tmo97
Quartz
Description: "Quartz, breakable mineral. Conducts but becomes brittle at lower temperatures."
QRTZ becomes brittle when cooled to near absolute zero and turns into PQRT. It scatters PHOT when they go through. It's immune to ACID, but melts slowly when it reaches 2300C. It grows slowly when SLTW is added, it's ctype can be set with the console to determine how fast it grows. Also conducts electricity when under pressure.
Titanium
Description: "Titanium. Higher melting temperature than most other metals, blocks all air pressure."
A metallic solid with interesting properties. It is an unbreakable material with a Melting point of roughly 1668°c. It will conduct electricity. It will absorb around 50% of all neutrons it is on contact with. Its unique property is that it is a complete "pressure insulator" at any thickness.
If molten TTAN is mixed with EXOT, it turns into molten VIBR, which can be melted to form VIBR.
Gold
Description: "Corrosion resistant metal, will reverse corrosion of iron."
Gold is a solid, unbreakable metal with a melting point of 1064°c, it has anti-corrosion properties, when placed next to IRON, it will prevent it from rusting (useful when performing electrolysis)
It also has some interesting electrical properties, it has a conduction speed of about 50% more than other materials (with only ETRD and INST being faster) and being able to conduct across up to a 3 pixel gap
Gold will allow neutrons to pass through, but will absorb about half of them.